Research Progress of Mitophagy in Alzheimer's Disease.

The prevalence of Alzheimer's disease (AD) is increasing as the elderly population, which hurts elderly people's cognition and capacity for self-care. The process of mitophagy involves the selective clearance of ageing and impaired mitochondria, which is required to preserve intracellular homeostasis and energy metabolism. Currently, it has been discovered that mitophagy abnormalities are intimately linked to the beginning and progression of AD. This article discusses the mechanism of mitophagy, abnormal mitophagy, and therapeutic effects in AD. The purpose is to offer fresh perspectives on the causes and remedies of AD.

Overcoming the structure deficiency of nanodrug coated with tannic acid shell through phenolic hydroxyl protection strategy for Alzheimer's disease combination treatment.

Tannic acid (TA) shell is of great interest for nanodrug design due to its versatile application such as antioxidant, antibacterial, anti-inflammatory. However, evidence is emerging that TA air oxidation in storage stage and unfavorable interactions of TA with electrolyte or protein in drug delivery could bring great challenge for the structure stability of nanodrug. In this study, a smart TA shell of nanomicelles was constructed through phenolic hydroxyl protection strategy, and the antioxidant capacity of nanomicelles maintain stable after 24 days storage. The phenolic hydroxyl protective tannic acid micelles (PHPTA micelles) show excellent performance for combination delivery of azoramide (Azo), dantrolene (Dan), Trazodone (Tra) in accelerated senescence (SAMP8) mice. This study may pave the way for the fabrication of nanodrugs with stable and smart TA shell for oxidative stress relevant diseases.

Acupuncture Improves Synaptic Plasticity of SAMP8 Mice through the RhoA/ROCK Pathway.

BACKGROUND: Studies have found synaptic plasticity damage to be an early marker of Alzheimer's disease (AD). RhoA/ROCK pathway is involved in the regulation of synaptic plasticity. Acupuncture can significantly improve the cognitive state of AD. OBJECTIVE: We aimed to use modern biological technology to detect the changes in synaptic plasticity and RhoA/ROCK pathway in SAMP8 mice, as well as the intervention effect of acupuncture. METHODS: Morris water maze and electrophysiological techniques were used in vivo to detect the changes in spatial memory and LTP of mice. Golgi Cox staining and CASEVIEWER2.1 software were used to quantitatively analyze the changes in the morphology and number of dendritic spines in the hippocampus of mice. The activity of RhoA and ROCK2 in the hippocampus of mice was detected, respectively, by pull-down technique and ELISA. WB technique was used to detect the protein expression of ROCK2 and phosphorylation level of MLC2, LIMK2, and CRMP2 in the hippocampus of mice. RESULTS: The neurobehavior and synaptic plasticity of 8-month-old SAMP8 mice were found to be significantly impaired. Acupuncture could improve the spatial learning and memory ability of SAMP8 mice, and partially prevent the reduction in the number of spines on the secondary branches of the apical dendrites in the hippocampus and the attenuation of LTP. The RhoA/ROCK pathway was significantly activated in the hippocampus of 8-month-old SAMP8 mice, and acupuncture had an inhibitory effect on it. CONCLUSION: Acupuncture can improve synaptic plasticity by inhibiting the abnormal activation of the RhoA/ROCK pathway, and improve the spatial learning and memory ability of AD, so as to achieve the purpose of treating AD.

[RhoA/ROCK pathway involved in effects of Sanjiao acupuncture on learning and memory and synaptic plasticity in Alzheimer's disease mice].

OBJECTIVE: To observe the effect of Sanjiao acupuncture(triple energizer acupuncture)on the small G protein guanosine triphosphate enzyme subfamily protein RhoA/Rho kinase (ROCK) pathway in Alzheimer's disease mice, and explore its effect on learning and memory function and neurosynaptic plasticity. METHODS: Forty SAMP8 senile dementia mice were randomly divided into model, Sanjiao acupuncture (acupuncture), non acupoint acupuncture (non-acupoint) and fasudil groups, with 10 mice in each group, another 10 SAMR normal aging mice were selected as normal aging group. Mice in the acupuncture group were treated with acupuncture intervention on "Danzhong"(CV18), "Zhongwan"(CV13), "Qihai"(BL24) and bilateral "Xuehai"(SP10) and "Zusanli" (ST36). Mice in the non-acupoint group were treated with acupuncture at each of the left and right non-acupoints under the ribs and mice in the fasudil group were intraperitoneally injected with fasudil (25 mg/kg). The mice in each group were given medicine or acupuncture on the second day after grouping for 28 continuously days, once a day. Morris water maze test was used to test the learning and memory ability of mice. HE staining was used to observe the pathological changes of neurons in hippocampus. The number of hippocampal neuron dendritic spine was detected by FD fast Golgi staining kit. The contents of ß-amyloid 42 (Aß42) and phosphorylated tau protein (p-tau) in hippocampus were detected by ELISA. Western blot was used to detect the protein relative expression levels of RhoA, ROCK, F-actin and p-cofilin in hippocampus. RESULTS: Compared with those in the normal aging group, the hippocampal neurons of the model group were disorderly arranged, the number of neuron was reduced, the escape latency, hippocampal Aß42 and p-tau contents, RhoA and ROCK protein expressions increased (P<0.05), the number of crossing the original platform, the number of neuronal dendritic spines, expressions of F-actin and p-cofilin decreased (P<0.05). After the interventions, there was no statistically significant difference in the above indicators in the non-acupoint group relevant to the model group (P>0.05). The acupuncture group and fasudil group improved the hippocampal pathological damage. The escape latency, hippocampal Aß42 and p-tau contents, the expressions of RhoA and ROCK protein decreased (P<0.05), and the number of crossing the original platform, the number of hippocampal neuron dendritic spines, expressions of F-actin and p-cofilin increased (P<0.05) in both of the acupuncture and fasudil groups in contrast to the model and non-acupoint groups. Compared with the acupuncture group, there was no significant difference in the above indicators in the fasudil group (P>0.05). CONCLUSION: Sanjiao acupuncture may inhibit the activation of the RhoA/ROCK pathway, so as to improve the learning and memory function of AD mice, increase the number of hippocampal neuron dendritic spines, and promote synaptic plasticity.

Acupuncture accelerates neural regeneration and synaptophysin production after neural stem cells transplantation in mice.

BACKGROUND: Synaptophysin plays a key role in synaptic development and plasticity of neurons and is closely related to the cognitive process of Alzheimer's disease (AD) patients. Exogenous neural stem cells (NSCs) improve the damaged nerve function. The effects of Sanjiao acupuncture on cognitive impairment may be related to the regulation of the NSC microenvironment. AIM: To explore the anti-dementia mechanism of acupuncture by regulating the NSC microenvironment. METHODS: NSCs were isolated from pregnant senescence-accelerated mouse resistant 1 (SAMR1) mice, labeled with BrdU, and injected into the hippocampus of senescence-accelerated mouse prone 8 (SAMP8) mice. Eight-month-old senescence-accelerated mice (SAM) were randomly divided into six groups: SAMR1 (RC), SAMP8 (PC), sham transplantation (PS), NSC transplantation (PT), NSC transplantation with acupuncture (PTA), and NSC transplantation with non-acupoint acupuncture (PTN). Morris water maze test was used to study the learning and memory ability of mice after NSC transplantation. Hematoxylin-eosin staining and immunofluorescence were used to observe the his-topathological changes and NSC proliferation in mice. A co-culture model of hippocampal slices and NSCs was established in vitro, and the synaptophysin expression in the hippocampal microenvironment of mice was observed by flow cytometry after acupuncture treatment. RESULTS: Morris water maze test showed significant cognitive impairment of learning and memory in 8-mo-old SAMP8, which improved in all the NSC transplantation groups. The behavioral change in the PTA group was stronger than those in the other two groups (P < 0.05). Histopathologically, the hippocampal structure was clear, the cell arrangement was dense and orderly, and the necrosis of cells in CA1 and CA3 areas was significantly reduced in the PTA group when compared with the PC group. The BrdU-positive proliferating cells were found in NSC hippocampal transplantation groups, and the number increased significantly in the PTA group than in the PT and PTN groups (P < 0.05). Flow cytometry showed that after co-culture of NSCs with hippocampal slices in vitro, the synaptophysin expression in the PC group decreased in comparison to the RC group, that in PT, PTA, and PTN groups increased as compared to the PC group, and that in the PTA group increased significantly as compared to the PTN group with acupoint-related specificity (P < 0.05). CONCLUSION: Acupuncture may promote nerve regeneration and synaptogenesis in SAMP8 mice by regulating the microenvironment of NSC transplantation to improve the nerve activity and promote the recovery of AD-damaged cells.

Acupuncture improves dendritic structure and spatial learning and memory ability of Alzheimer's disease mice.

Acupuncture can improve the cognitive state of Alzheimer's disease, but its mechanism is not clear. Dendritic atrophy and synaptic loss in Alzheimer's disease brain are positively correlated with cognitive damage. Therefore, we speculated that the effect of acupuncture on improving cognitive function may be associated with reduced dendritic damage in the brain. Acupuncture at Qihai (CV6), Zhongwan (CV12), Danzhong (CV17), bilateral Zusanli (ST36), and bilateral Xuehai (SP10) acupoints was performed once a day (1-day rest after 6-day treatment) for 14 consecutive days. Senescence-accelerated mouse prone 8 (SAMP8) mice without acupuncture and senescence-accelerated mouse resistant 1 (SAMR1) mice were used as normal controls. After 14 days of treatment, spatial learning and memory ability of mice was assessed in each group using the Morris water maze. Dendritic changes of pyramidal cells in the hippocampal CA1 region were analyzed by quantitative Golgi staining. Our results showed that acupuncture shortened escape latency and lengthened retention time of the former platform quadrant in SAMP8 mice. Further, SAMP8 mice exhibited a significant increase in the number of apical and basal dendritic branches and total length of apical and basal dendrites after acupuncture. These results suggest that acupuncture improves spatial learning and memory ability of middle-aged SAMP8 mice by ameliorating dendritic structure.

Combined acupuncture and HuangDiSan treatment affects behavior and synaptophysin levels in the hippocampus of senescence-accelerated mouse prone 8 after neural stem cell transplantation.

Sanjiao acupuncture and HuangDiSan can promote the proliferation, migration and differentiation of exogenous neural stem cells in senescence-accelerated mouse prone 8 (SAMP8) mice and can improve learning and memory impairment and behavioral function in dementia-model mice. Thus, we sought to determine whether Sanjiao acupuncture and HuangDiSan can elevate the effect of neural stem cell transplantation in Alzheimer's disease model mice. Sanjiao acupuncture was used to stimulate Danzhong (CV17), Zhongwan (CV12), Qihai (CV6), bilateral Xuehai (SP10) and bilateral Zusanli (ST36) 15 days before and after implantation of neural stem cells (5 × 105) into the hippocampal dentate gyrus of SAMP8 mice. Simultaneously, 0.2 mL HuangDiSan, containing Rehmannia Root and Chinese Angelica, was intragastrically administered. Our results demonstrated that compared with mice undergoing neural stem cell transplantation alone, learning ability was significantly improved and synaptophysin mRNA and protein levels were greatly increased in the hippocampus of mice undergoing both Sanjiao acupuncture and intragastric administration of HuangDiSan. We conclude that the combination of Sanjiao acupuncture and HuangDiSan can effectively improve dementia symptoms in mice, and the mechanism of this action might be related to the regulation of synaptophysin expression.

miR-22 exerts anti-alzheimic effects via the regulation of apoptosis of hippocampal neurons.

To investigate the expression of miR-22 in the hippocampus of amyloid ß (1-42)-induced alzheimic rats, and to assess the underlying mechanism. A total of 60 male Sprague Dawley rats weighing between 274.65 and 293.97 g (mean weight = 284.31 ± 9.66 g) and aged 12 to 14 weeks were randomly assigned to three groups: control group (n = 20), Alzheimer's disease group (AD group; n = 20) and AD + miR-22 mimic group (ADMM group; n = 22). Rat AD model was established by injecting a solution of Aß1-42 into the hippocampal CA1 regions. After 24 h, rats in the ADMM group also received intraventricular injection of miR-22 mimic continuously for 28 days. The escape latency of rats, neuronal damage in the hippocampus, synaptic structure, brain-derived neurotrophic factor (BDNF), and the expressions of apoptosis-related proteins were assessed or determined, as appropriate. The expression of miR-22 in hippocampus of the AD group was significantly lower than that in the control group (p < 0.05). However, after 28 days of intraventricular injection of miR-22 mimic into AD rats, the expression was significantly increased, relative to control (p < 0.05). The escape latency of AD rats was significantly prolonged, and the number of platform sites significantly reduced when compared to the control group (p < 0.05). However, the escape latency was significantly shortened and the number of platform sites significantly increased in the ADMM group, relative to the control and AD groups. Results of transmission electron microscopy showed that the expression of miR-22 significantly reversed the degradation of synaptic structures in the hippocampus of AD rats as evidenced by recovery of abnormal synaptic cleft width and the length of synaptic active zones (p < 0.05). Results of Nissl staining revealed significant proliferation of gliacyte and loss of Nissl bodies. After miR-22 injection, the number of gliacytes in the hippocampus of AD rats was significantly reduced, while the number of Nissl bodies was significantly increased (p < 0.05). The expressions of BDNF in CA1 and CA2/3 regions of AD rats were significantly lower than those in the control group, and BDNF in the hippocampus of AD rats was significantly increased after 28 days of continuous injection of miR-22 (p < 0.05). The positive expression of Tunnel in the ADMM group (22.67 ± 2.96 %) was significantly higher than that in the AD group (4.49 ± 1.23 %), but significantly lower than that of control (39.51 ± 3.66 %) (p < 0.05). After 28 days of intraventricular injection of miR-22 mimic into AD rats, the expression of Bax protein was significantly down-regulated, while bcl-2 protein was significantly up-regulated (p < 0.05). The expression of miR-22 in the hippocampus of patients with AD inhibits neuronal apoptosis, thereby improving learning and memory dysfunction.

Acupuncture upregulates G protein coupled activity in SAMP8 mice.

BACKGROUND: Transmembrane and intracellular signal transduction of G protein is closely related to the pathophysiology of Alzheimer's disease (AD). OBJECTIVE: To explore the effects of Sanjiao acupuncture on G protein signal transduction pathways in the pathogenesis of AD. METHODS: 36 senescence-accelerated (SAM) prone 8 mice were divided into three groups that remained untreated (SAMP8, n=12) or received Sanjiao acupuncture (SAMP8+SA, n=12) or control acupuncture (SAMP8+CA, n=12). An additional control group of SAM resistant 1 mice was included (SAMR1 group, n=12). Morris water maze tests were used to investigate learning and memory abilities. Immunoprecipitation and Western blotting were used to study expression of G protein subunits and their activities in the cortex/hippocampus. RESULTS: Behavioural analysis showed that acupuncture attenuated the severe cognitive deficits observed in untreated/CA-treated SAMP8 mice. The findings of the G protein activation assays via immunoprecipitation and Western blots were that the physiologically coupled activation rate (PCAR) and maximal coupled activation rate (MCAR) of Gαs and Gαi were decreased in the cortex of SAMP8 vs SAMR1 mice. Sanjiao acupuncture induced an upregulation in the PCAR of Gαs and Gαi. In the hippocampus of untreated SAMP8 mice, the PCAR of Gαs and MCAR of both Gαs and Gαi declined, and Sanjiao acupuncture was associated with an upregulation in the MCAR of Gαs and Gαi. There were no significant differences in Gαs and Gαi expression between the groups. CONCLUSIONS: Sanjiao acupuncture attenuates cognitive deficits in a mouse model of AD via upregulation of G protein activity and stabilisation of the cellular signal.

Acupuncture Improves Cerebral Microenvironment in Mice with Alzheimer's Disease Treated with Hippocampal Neural Stem Cells.

Transplantation with neural stem cells (NSCs) is a promising clinical therapy for Alzheimer's disease (AD). However, the final fate of grafted NSCs is mainly determined by the host microenvironment. Therefore, this study investigated the role of Sanjiao acupuncture in the NSCs-treated hippocampus of a mouse model, senescence-accelerated mouse prone 8 (SAMP8) using Western blot, real-time fluorescent PCR, and immunofluorescence techniques. Meanwhile, we developed a co-culture model of hippocampal tissue specimens and NSCs in vitro, to observe the effects of acupuncture on survival, proliferation and differentiation of grafted NSCs using flow cytometry. Results showed that acupuncture pre- and post-NSCs transplantation significantly improved senescence-induced cognitive dysfunction (P < 0.05); upregulated the expression of basic fibroblast growth factor (bFGF), epidermal growth factor (EGF), and brain-derived neurotrophic factor (BDNF) (P < 0.05); and also increased the count of neuron-specific nuclear protein (NeuN)- and glial fibrillary acidic protein (GFAP)-positive cells (P < 0.05). Therapeutic acupuncture may regulate the cytokine levels associated with survival, proliferation, and differentiation of NSCs in hippocampal microenvironment, to promote the repair of damaged cells, resulting in improved cognitive performance in mice.

Preparation and rebinding properties of protein-imprinted polysiloxane using mesoporous calcium silicate grafted non-woven polypropylene as matrix.

Calcium silicate particle containing mesoporous SiO2 (CaSiO3@SiO2) was grafted on the surface of non-woven polypropylene. The PP non-woven grafted calcium silicate containing mesoporous SiO2 (PP-g-CaSiO3@SiO2) was used as the matrix to prepare bovine serum albumin (BSA) molecularly imprinted polysiloxane (MIP) by using silanes as the functional monomers and BSA as the template. PP non-woven grafted BSA-imprinted polysiloxane (PP-g-CaSiO3@SiO2 MIP) was characterized by scanning electron microscope (SEM), Fourier transform infrared spectometry (FTIR) and drilling string compensator (DSC). Influence factors on the rebinding capacity of the MIP were investigated, such as grafting degree, the pH in treating CaSiO3 and the type and proportion of silanes. The rebinding properties of BSA on PP-g-CaSiO3@SiO2 and MIP were investigated under different conditions. The results indicated that the rebinding capacity of MIP for BSA reached 56.32 mg/g, which was 2.65 times of NIP. The non-woven polypropylene grafted BSA-imprinted polysiloxane could recognize the template protein and the selectivity factor (ß) was above 2.4 when using ovalbumin, hemoglobin and γ-globulin as control proteins. The PP-g-CaSiO3@SiO2 MIP has favorable reusability.

[Combination of acupoints based on the theory of qi tonification, blood regulation and strengthening the primary source].

The acupuncture technique of tonifying qi, regulating blood and strengthening the primary source of human life is established on the base of the new pathology of dementia due to dysfunction of sanjiao by Prof. HAN Jing-xian. It is held that Tanzhong (CV 17), Zhongwan (CV 12), Qihai (CV 6), Xuehai (SP 10), Zusanli(ST 36) and Waiguan (TE 5) were the basic points for treatment of dementia. There are 3 characteristics of the point combination. Firstly, emphasis should be put on regulation of the stomach and the spleen so as to promote transportation, transformation and distribution; secondly, monarch, minister, assistant and guide points should be selected on the base of meridians, and more attention should be paid to the entity and connections among organs; and thirdly, treatment should be given according to physiological functions of the viscera.

Effects of acupuncture on glycometabolic enzymes in multi-infarct dementia rats.

Acupuncture has exhibited therapeutic effects on vascular dementia in our previous research. The mechanism of its anti-dementia effects involves energy metabolism. For brain cells, glucose metabolism is almost the only source of energy, and glucose metabolism disorders are early signs of dementia. In addition, glucose metabolism associates closely with glycometabolic enzymes, thereby maintains normal energy supply in brains and neurological and mental activities. In order to investigate its anti-dementia mechanism, we studied the effects of acupuncture on behavior of multi-infarct dementia (MID) rats and glycometabolic enzymes protein expression and activities in their brains. Results showed acupuncture improved the cognitive disorder, and increased the activities of hexokinase, pyruvate kinase, and glucose 6 phosphate dehydrogenase. Accordingly, it suggests that the anti-dementia effects of acupuncture may be mediated by up regulation of hexokinase, pyruvate kinase, and glucose 6 phosphate dehydrogenase activities, influencing energy metabolic system and thus overcoming the dysfunctional cognition of MID.

Acupuncture improves cognitive deficits and regulates the brain cell proliferation of SAMP8 mice.

Senescence-accelerated mouse prone 8 (SAMP8) is an autogenic senile strain characterized by early cognitive impairment and age-related deterioration of learning and memory. To investigate the effect of acupuncture on behavioral changes and brain cell events, male 4-month-old SAMP8 and age-matched homologous normal aging SAMR1 mice were divided into four groups: SAMP8 acupuncture group (Pa), SAMP8 non-acupoint control group (Pn), SAMP8 control group (Pc) and SAMR1 normal control group (Rc). By Morris water maze test, the cognitive deficit of SAMP8 was revealed and significantly improved by "Yiqitiaoxue and Fubenpeiyuan" acupuncture. Meanwhile, by 5'-bromo-2'-deoxyuridine (BrdU) specific immunodetection, the decreased cell proliferation in dentate gyrus (DG) of SAMP8 was greatly enhanced by the therapeutic acupuncture, suggesting acupoint-related specificity. Even though no significant differences were found in ventricular/subventricular zones (VZ/SVZ) of the third ventricle (V3) and lateral ventricle (LV) between groups, we obtained interesting results: a stream-like distribution of newly proliferated cells presented along the dorsum of alveus hippocampi (Alv), extending from LV to corpus callosum (CC), and the therapeutic acupuncture showed a marked effect on this region. Our research suggests that acupuncture can induce different cell proliferation in different brain regions of SAMP8, which brings forth the need to explore further for the mechanism of cognitive deficits and acupuncture intervention in this field.